Rehabilitation of Skin Bacterial Counts to Assess the Short-Term Impact of Ingredients in Topical Applications—Presenting a Culture-Based Viability Score

Author:

Robe Patrick1ORCID,Jarrin Cyrille1ORCID,Zanchetta Catherine1,Dupont Joran1,Chapuis Emilie2,Scandolera Amandine2ORCID,Auriol Daniel1,Reynaud Romain1ORCID

Affiliation:

1. Givaudan France SAS, Bâtiment Canal Biotech 1, 3 Rue des Satellites, 31400 Toulouse, France

2. Givaudan France SAS, Route de Bazancourt, 51100 Pomacle, France

Abstract

Our understanding of the interplay between skin microbiota and the skin’s health status is growing. Consequently, the cosmetics industry is increasingly concerned with ensuring that beauty products do not adversely affect this microbiota and skin health. Prior to implementing demanding sequencing-based analyses of skin microbiota, an agile approach is needed to provide a first estimate of the short-term impact of cosmetic ingredients on the viability of skin microbiota. A standardized methodology, including topical applications, swabbing, and bacterial colony-counting, was set up and evaluated. The skin’s bacterial density was longitudinally monitored after repeated applications of two reference compounds: physiological saline, assumed to be neutral, and chlorhexidine, expected to have a perturbing effect. Healthy volunteers were enrolled in six clinical studies, involving application of physiological saline and chlorhexidine to both sides of the neck. Over 7 days, skin swabs were collected at defined time points, and bacterial density was assessed based on a classical colony-counting approach. The longitudinal assessment of skin bacterial density proved highly robust, with a very steady inter-seasonal impact of chlorhexidine on skin bacterial density. This consolidated methodology supported the development of an easy-to-understand viability score that quantifies the intrinsic short-term impact of an ingredient on skin bacterial populations.

Publisher

MDPI AG

Subject

Dermatology,Pharmaceutical Science,Aging,Chemical Engineering (miscellaneous),Surgery

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